• Title/Summary/Keyword: 정원세포

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Development of Germline Chimera Production System by Spermatogonial Stem Cell Transplantation in Chicken

  • Lee, Young-Mok;Kim, Jin-Nam;Park, Tae-Sub;Kim, Duk-Kyung;Hong, Yeong-Ho;Lim, Jeong-Mook;Han, Jae-Yong
    • Proceedings of the Korea Society of Poultry Science Conference
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    • 2003.11a
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    • pp.71-72
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    • 2003
  • 최근 생쥐에서 정원세포를 이용한 생식선 카이메라의 생산이 보고되었다. 정원세포의 경우 성축으로부터 세포를 다량으로 얻기가 쉬우며, 수용체 정소 내로 이식될 경우 생식선 카이메라의 생산능력이 있어서 이전의 배아줄기 세포를 이용할 때의 문제점을 효율적으로 해결할 수 있다. 또한 유전자가 도입된 정원세포의 이식에 의한 수용체 정소 내에서의 정자형성의 보고는 정원세포를 이용한 형질전환 동물의 생산 시스템으로의 개발 가능성을 보여준다. 본 실험에서는 닭에서 기존에 이용되어 왔던 형질전환 동물 생산 시스템의 문제점을 극복하고자 주령별 정원세포의 분리 및 이식을 통하여 조류에서 정원세포의 이식방법을 확립하고 생식선 카이메라 생산효율을 증진시키기 위하여 불임제인 부설판 등을 이용한 불임화 기술을 확립하여, 결국 조류에서의 형질전환 조류 생산 시스템으로서의 개발가능성을 제시하고자 한다.

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Characterization of Spermatogonial Stem Cells and Testicular Cells in Chicken

  • Lee, Bo Ram;Lee, Young Mok;Park, Tae Sub;Jung, Jin Geyoung;Hong, Yeong Ho;Lim, Jeong Mook
    • Proceedings of the Korea Society of Poultry Science Conference
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    • 2003.11a
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    • pp.69-70
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    • 2003
  • According to topographical methods, the chicken spermatogonia was located in basal membrane of seminiferous tubules. It has large nuclei and mitochondria and proliferated with cellular bridges. Immunohistochemistry data showed that anti-SSEA-1 antibody specifically reacted with $\textrm{A}_{pr}$ and $\textrm{A}_{al}$ type spermatogonia. Lectin, STA and integrin-6, -1 were also specific to $\textrm{A}_{s}$ type spermatogonia.

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Differentiation of Seminiferous Epithelium and Spermiogenesis in the Testis of Rana catesbeiana (황소개구리(Rana catesbeiana)의 세정관 상피의 분화와 정자변태)

  • Go, Song-Haang;Lee, Jung-Hun
    • Applied Microscopy
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    • v.31 no.2
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    • pp.143-156
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    • 2001
  • The aim of this study was to clarify the differentiation of seminiferous epithelial cells and spermiogenesis in the testis of Rana catesbeiana. Spermatogenesis of R. catesbeiana consists of primary spermatogonia, secondary spermatogonia, primary spermatocytes, secondary spermatocytes and spermatids. They were subdivided into eight stages on the basis of the morphological features of the germ cell differentiation. From the spermatocytes except primary spermatogonia to before the spermiation of spermatids were surrounded by spermatocyst. Spermiogenesis of R. catesbeiana can also be divided into three stages on the basis of morphological features of the nucleus and the cytoplasm organelles. Spermatozoon contained a saccular acrosome, a cylindrical and tapered slighty at both ends head, and a tail with only the axoneme.

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Seminiferous Epithelium Cycle of Apodemus speciosus peninsulae (흰넓적다리 붉은쥐(Apodemus speciosus peninsulae)의 세정관 상피주기)

  • Kim, Mi-Jin;Lee, Jung-Hun
    • Development and Reproduction
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    • v.13 no.1
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    • pp.25-33
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    • 2009
  • The cycle of the seminiferous epithelium and development of spermatids of Apodemus speciosus peninsulae were observed using a light microscope. On the basis of developing spermatocyte and spermatid, the cycle of the seminiferous epithelium was divided into 9 stages. Type Ad spermatogonia were appeared in all stages ($I{\sim}IX$). The Ap, In, and B types of spermatogonia were appeared from stage I, II and III, and IV, respectively. In prophase of first meiosis, the leptotene spermatocytes appeared from stage V and VI, zygotene spermatocytes from stages I, II, VII, VIII, and IX, pachytene spermatocytes from stage III to VII, diplotene spermatocytes in the stage VIII, and secondary spermatocytes in stage IX. On the basis of morphology of spermatid head, developing of nuclear and acrosome and the morphological change of cytoplasm, the developing of spermatids was divided into 12 steps. Considering all the results, A. s. peninsulae displayed very similar result with A. agrarius coreae that is allied species when compare correct characters developing of spermatids with spermatogonia and appearance time of the spermatocyte. Appearance time of the same cell and number of spermatogonial generation was thought that characters of the species, and information may be useful in identifying the species.

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Analysis of Pregnancy-Associated Plasma Protein-A (PAPP-A) in Porcine Neonatal Testis (미성숙 돼지 정소 내에서의 pregnancy-associated plasma protein-A 특성 분석)

  • Lee, W.Y.;Cho, K.H.;Yeo, J.M.;Shin, Y.K.;Park, J.K.
    • Journal of Practical Agriculture & Fisheries Research
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    • v.22 no.1
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    • pp.5-13
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    • 2020
  • The identify of biomarkers in living tissues is useful to understand the characteristics and functions of the cells. Proteins such as protein gene product 9.5, promyelocytic leukemia zinc finger, NANOG, and stage-specific embryonic antigen-1 have been identified as markers for porcine undifferentiated spermatogonia. In this study, the expression of insulin-like growth factor binding proteins (IGFBPs), a newly discovered porcine spermatogonia marker and pregnancy-associated plasma protein-A (PAPP-A), a protein regulator of IGFBPs, were characterized in 5-day-old porcine testis. To analyze the function of IGFBPs, RT-PCR was performed. IGFBP 2, 3, 4, and 6 were detected in porcine spermatogonia and PAPP-A was detected in basement regions in 5day old porcine seminiferous tubules. PAPP-A was not expressed in spermatogonia, but it was expressed in Sertoli cells. These results suggest that the expression of PAPP-A protein in Sertoli cells may regulate the development and differentiation of testicular cells through the IGF axis in porcine neonatal testis.

Seminiferous Epithelium Cycle of Crocidura dsinezumi (제주땃쥐(Crocidura dsinezumi)의 세정관 상피주기)

  • Jeong, Seung-Don;Lee, Jung-Hun
    • Development and Reproduction
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    • v.10 no.1
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    • pp.9-17
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    • 2006
  • The cycle of the seminiferous epithelium and morphological features of spermatids in Crocidura dsinezumi were studied by light microscopy. The cycle of the seminiferous epithelium was divided into 12 stages. The dark type of spermatogonium(Ad) is appeared in all stages, and intermediate(In) in stage IV and B spermatogonium in stage V and VI were observed. The development of the acrosomal system, and changes in nuclear morphology of spermatids were divided into 14 steps. The Golgi, cap, acrosomal, maturation and spermiation phases were observed during steps $1{\sim}2$, steps $3{\sim}6$, steps $7{\sim}10$, steps $11{\sim}13$, and step 14, respectively. Our results provide the foundation for future studies of the spermiogenesis of Crocidura dsinezumis.

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spermatogenesis in Paramphistomum cervi (쌍구흡충(Paramphistomum cervi)에서의 정자형성과정)

  • 정계헌;박종안
    • The Korean Journal of Zoology
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    • v.38 no.1
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    • pp.55-65
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    • 1995
  • 소의 위에 기생하는 쌍구흠충(Paromphistomum cewi)에서의 정자형성과정을 광학현미경과 투과전자현미경을 이용하여 관찰하였다 발생중인 모든 세포들은 중앙에 있는 세포질로부터 각 세포들로 이어지는 세포간교에 의하여 서로 연결되어 있어 분열과 분화의 동시성을 위한 영양계를 이루고 있었다 정원세포들은 4세포기까지이며 모두 기정막에 붙어 있었다. 일차정모세포는 8세포, 이차정모세포는 16세포가 영양계를 이루었고, 정세포는 32세포가 영양계를 이루었으며 이 상태에서 변태를 진행하였다 성숙한 정자의 머리는 나사모양이고 첨체는 형성되지 않았으며 2개의 축사를 가지고 있었다 축사의 단면에서 미소관의 배열상태는 9치 유형이었다.

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Production of Chimeric Mice Following Transgenesis of Multipotent Spermatogonial Stem Cells (유전자변형 다분화능 정원줄기세포를 이용한 키메라 생쥐의 생산)

  • Lim, Jung-Eun;Eum, Jin-Hee;Kim, Hyung-Joon;Park, Jae-Kyun;Lee, Hyun-Jung;Lee, Dong-Ryul
    • Development and Reproduction
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    • v.13 no.4
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    • pp.305-312
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    • 2009
  • Multipotent spermatogonial stem cells (mSSCs), derived from uni-potent SSC, are a type of reprogrammed cells with similar characteristics to embryonic stem cells (ESCs). The aim of this study was to evaluate the potential for transgenesis of mSSC derived from outbred mice and the production of transgenic animal by the mSSC-insertion into embryo. mSSCs, established from outbred mice (ICR strain) in the previous study, were maintained and then transfected with a lenti-viral vector expressing green fluorescent protein (GFP), CS-CDF-CG-PRE. Embryonic stem cells (ESCs) were derived from inbred transgenic mice (C57BL/6-Tg (CAG-EGFP)) and were used as an experimental control. Transfected mSSCs were well proliferated in vitro and maintained their characteristics and normal karyotype. Ten to twelve mSSCs and ESCs were collected and inserted into perivitelline space of 8-cell mouse embryos, and then transferred them into uteri of poster mothers after an additional 2-days of culture. Percentage of mSSC-derived offsprings was 4.8% (47/980) and which was lower than those (11.7% (67/572)) of ESC-derived ones (P<0.05). However, even though different genetic background of mSSC and ESC origin, the production efficiency of coat-colored chimeric offspring in mSSC group was not different when compared it with ESC (6.4% (3/47) vs. 7.5% (5/67)). From these results, we confirmed that mSSC derived from outbred mice has a pluripotency and a potential to produce chimeric embryos or mice when reaggregatation with mSSC is performed.

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Cell Differentiation and Ultrastructure of the Seminiferous Epithelium in Myotis macrodactylus (큰발웃수염박쥐 (Myotis macrodactylus)의 정상피세포의 분화와 미세구조)

  • Lee, Jung-Hun
    • Applied Microscopy
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    • v.33 no.1
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    • pp.25-39
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    • 2003
  • Cell differentiation and ultrastructural characteristics in the seminiferous epithelium of Myotis macrodactylus was investigated with the light and electron microscopes. Spermatogenesis has begun at April and finished at September. The nuclei of A spermatogonia (dark and pale type of spermatogonia) were oval, applied to the basal lamina, and surrounded by Sertoli cells. By comparison with other types of spermatogonia, the cell and nucleus of B type of spermatogonium is globular and larger than A types of spermatogonia. The nucleolus appears as a coarse and touches the nuclear membrane. The cell and nucleus of spermatocytes was globular and larger, but primary spematocyte is larger than secondary spermatocyte. Spermiogenesis was divided according to the level of fine structural difference, into Golgi, cap, acrosomal, maturation and spermiation phases; Golgi, cap, acrosomal and spermiation phases were further subdivided into steps of early and late phase respectively, and maturation phase has only one step. Hence, the spermiogenesis has been divided into a total of nine phases. In the change of karyoplasm, the chromatin granules are condensed at late Golgi phase and completed at spermiation phase. The sperm tail began to develop in early Golgi phase and completed in spermiation phase. The process of degeneration of spermatogenic cells in the seminiferous tubules was continually observed from October, before the beginning of hibernation, to hibernation phase (November, December, January, February, March). Immatured spermatogenic cells in the seminiferous tubules have been engulfed by phagocytosis of Sertoli cells during period of degeneration. It is deduced that the adaptative strategy serves as the mechanism to regulate the effective use of energy to prepare for long hibernation and regulation of breeding cycle.

A Cytogenetic Study on Induction of Diploid Spermatozoa in Poultry (가금류 정자 세포의 배수성 유기를 위한 세포 유전학적 연구)

  • 김철욱;손시환;전익수
    • Korean Journal of Poultry Science
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    • v.23 no.1
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    • pp.1-7
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    • 1996
  • In order to produce polyploid quail, the patterns of spermatogenesis and induction of diploid spermatozoa were analyzed by administration of spindle fiber inhibitor agent. Colcemid at the dose level of 37 $\mu\textrm{g}$ /100 g BW was Injected intraperitoneally to 50 Japanese quail males for 3 consecutive days. Five to 20 days after the first colcemid injection, the metaphase spreads from mitotic spermatogonia, primary spermatocyte and secondary spermatocyte were observed. By cytogenetic analysis, 9.4% of spermatogonia and spermatocyte cells in germ cells from the treated males was found to be polyploid cells. As compared with colcemld treated, the males with non-treated colcemid had only 2.3% polyploid cells in germ cells. The induction of diploid germ cells was highest in 10 days after the first colcemid injection and was lowest in 5 days after the first colcemid injection. These results suggested that between 10 to 15 days before maturation of the spermatozoa, the male germ cells were most sensitive to colcemid treatment. Spindle fiber inhibitor agent was also more sensitive to mitotic division of spermatogonia than meiotic division of primary and secondary spermatocyte.

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